Basic Information

Insect: Antheraea pernyi
Gene Symbol: -
Assembly: None
Location: GWHABGR00000047:14142845-14188602[-]

Transcription Factor Domain

TF Family: zf-C2H2
Domain: zf-C2H2 domain
PFAM: PF00096
TF Group: Zinc-Coordinating Group
Description: The C2H2 zinc finger is the classical zinc finger domain. The two conserved cysteines and histidines co-ordinate a zinc ion. The following pattern describes the zinc finger. #-X-C-X(1-5)-C-X3-#-X5-#-X2-H-X(3-6)-[H/C] Where X can be any amino acid, and numbers in brackets indicate the number of residues. The positions marked # are those that are important for the stable fold of the zinc finger. The final position can be either his or cys. The C2H2 zinc finger is composed of two short beta strands followed by an alpha helix. The amino terminal part of the helix binds the major groove in DNA binding zinc fingers. The accepted consensus binding sequence for Sp1 is usually defined by the asymmetric hexanucleotide core GGGCGG but this sequence does not include, among others, the GAG (=CTC) repeat that constitutes a high-affinity site for Sp1 binding to the wt1 promoter [1].
Hmmscan Out: # of c-Evalue i-Evalue score bias hmm coord from hmm coord to ali coord from ali coord to env coord from env coord to acc

1 62 0.94 62 4.6 0.3 2 23 48 70 47 70 0.92

2 62 6.9e-06 0.00045 20.7 1.0 1 20 160 179 160 182 0.95

3 62 0.00026 0.017 15.8 1.5 1 23 188 211 188 211 0.97

4 62 0.16 10 7.0 3.4 1 23 277 300 277 300 0.93

5 62 6.8 4.5e+02 1.9 0.1 2 23 327 349 326 349 0.92

6 62 0.86 56 4.7 3.8 2 23 372 393 371 393 0.96

7 62 0.0021 0.14 12.9 0.1 1 23 397 419 397 419 0.97

8 62 0.2 13 6.7 1.5 1 23 424 447 424 447 0.95

9 62 0.0027 0.18 12.6 1.2 1 23 482 504 482 504 0.97

10 62 2.5 1.6e+02 3.3 2.4 2 23 645 666 644 666 0.95

11 62 0.58 38 5.2 2.0 1 21 670 690 670 693 0.95

12 62 0.02 1.3 9.8 1.4 1 23 698 721 698 721 0.96

13 62 8.1 5.3e+02 1.6 2.2 1 23 726 748 726 748 0.93

14 62 2.7e-05 0.0018 18.8 1.0 1 20 754 773 754 776 0.95

15 62 0.042 2.8 8.8 0.5 3 23 831 852 830 852 0.96

16 62 0.01 0.68 10.7 0.8 2 23 923 944 922 944 0.95

17 62 0.00056 0.037 14.7 0.0 1 23 948 971 948 971 0.97

18 62 0.08 5.2 7.9 0.5 1 23 975 998 975 998 0.98

19 62 0.5 33 5.4 1.1 1 14 1037 1050 1037 1052 0.93

20 62 1.1 69 4.4 0.2 1 23 1091 1114 1091 1114 0.95

21 62 1 68 4.4 0.1 2 23 1140 1162 1139 1162 0.95

22 62 0.027 1.7 9.4 0.7 2 23 1186 1207 1185 1207 0.94

23 62 0.00013 0.0086 16.7 0.0 1 23 1211 1234 1211 1234 0.97

24 62 0.03 2 9.3 0.8 1 23 1238 1261 1238 1261 0.98

25 62 0.53 34 5.4 4.0 1 23 1271 1294 1271 1294 0.92

26 62 0.014 0.88 10.4 0.4 1 23 1300 1323 1300 1323 0.97

27 62 0.52 34 5.4 0.3 1 23 1329 1351 1329 1351 0.97

28 62 1.1e-05 0.00074 20.0 0.8 1 23 1357 1379 1357 1379 0.99

29 62 0.0017 0.11 13.2 4.8 1 23 1385 1407 1385 1408 0.96

30 62 1.5 1e+02 3.9 1.2 1 23 1481 1504 1481 1504 0.93

31 62 0.51 33 5.4 6.7 1 23 1570 1592 1570 1592 0.95

32 62 0.00023 0.015 16.0 1.0 1 23 1596 1618 1596 1618 0.98

33 62 0.018 1.2 10.0 0.6 1 23 1623 1646 1623 1646 0.94

34 62 0.00034 0.022 15.4 2.8 1 23 1652 1675 1652 1675 0.98

35 62 0.1 6.7 7.6 1.3 1 23 1682 1705 1682 1705 0.95

36 62 0.0019 0.12 13.1 1.5 1 23 1711 1733 1711 1733 0.96

37 62 1.1 73 4.3 0.2 1 23 1787 1810 1787 1810 0.89

38 62 0.12 7.9 7.4 0.3 3 23 1840 1861 1839 1861 0.92

39 62 0.0028 0.19 12.5 1.1 1 23 1883 1905 1883 1905 0.98

40 62 0.015 0.95 10.3 0.1 1 23 1909 1931 1909 1931 0.95

41 62 0.051 3.3 8.6 0.7 1 23 1936 1959 1936 1959 0.90

42 62 0.9 59 4.6 3.7 1 23 1965 1988 1965 1988 0.96

43 62 0.001 0.068 13.9 0.1 1 23 1995 2018 1995 2018 0.98

44 62 7.3e-05 0.0047 17.5 0.9 1 23 2024 2046 2024 2046 0.96

45 62 2.2 1.4e+02 3.4 0.3 1 23 2143 2166 2143 2166 0.93

46 62 5.6 3.6e+02 2.1 1.3 2 23 2191 2213 2190 2213 0.93

47 62 0.081 5.3 7.9 0.1 1 23 2237 2259 2237 2259 0.96

48 62 0.0013 0.083 13.6 0.2 1 23 2263 2285 2263 2285 0.98

49 62 0.0048 0.31 11.8 0.4 1 21 2290 2310 2290 2311 0.93

50 62 0.00012 0.0082 16.8 4.8 2 23 2313 2334 2312 2334 0.96

51 62 0.006 0.39 11.5 1.5 1 23 2340 2362 2340 2362 0.98

52 62 0.039 2.5 8.9 0.2 1 23 2496 2519 2496 2519 0.96

53 62 0.14 9.5 7.1 1.1 1 23 2627 2649 2627 2649 0.97

54 62 0.015 0.97 10.2 0.2 2 23 2677 2699 2676 2699 0.95

55 62 3.5e-05 0.0023 18.5 3.8 2 23 2723 2744 2722 2744 0.97

56 62 0.14 9.2 7.2 0.3 2 23 2748 2769 2747 2769 0.96

57 62 3.2 2.1e+02 2.9 3.9 1 23 2774 2797 2774 2797 0.95

58 62 6.6 4.3e+02 1.9 3.6 2 23 2809 2831 2808 2831 0.91

59 62 0.014 0.91 10.3 0.6 1 23 2837 2860 2837 2860 0.95

60 62 1.4e-06 9.2e-05 22.9 1.8 2 23 2865 2886 2864 2886 0.97

61 62 0.00093 0.061 14.0 3.1 1 23 2892 2914 2892 2914 0.97

62 62 0.0029 0.19 12.5 2.6 1 23 2920 2943 2920 2943 0.96

#	of	c-Evalue	i-Evalue	score	bias	hmm coord from	hmm coord to	ali coord from	ali coord to	env coord from	env coord to	acc
1	62	0.94	62	4.6	0.3	2	23	48	70	47	70	0.92
2	62	6.9e-06	0.00045	20.7	1.0	1	20	160	179	160	182	0.95
3	62	0.00026	0.017	15.8	1.5	1	23	188	211	188	211	0.97
4	62	0.16	10	7.0	3.4	1	23	277	300	277	300	0.93
5	62	6.8	4.5e+02	1.9	0.1	2	23	327	349	326	349	0.92
6	62	0.86	56	4.7	3.8	2	23	372	393	371	393	0.96
7	62	0.0021	0.14	12.9	0.1	1	23	397	419	397	419	0.97
8	62	0.2	13	6.7	1.5	1	23	424	447	424	447	0.95
9	62	0.0027	0.18	12.6	1.2	1	23	482	504	482	504	0.97
10	62	2.5	1.6e+02	3.3	2.4	2	23	645	666	644	666	0.95
11	62	0.58	38	5.2	2.0	1	21	670	690	670	693	0.95
12	62	0.02	1.3	9.8	1.4	1	23	698	721	698	721	0.96
13	62	8.1	5.3e+02	1.6	2.2	1	23	726	748	726	748	0.93
14	62	2.7e-05	0.0018	18.8	1.0	1	20	754	773	754	776	0.95
15	62	0.042	2.8	8.8	0.5	3	23	831	852	830	852	0.96
16	62	0.01	0.68	10.7	0.8	2	23	923	944	922	944	0.95
17	62	0.00056	0.037	14.7	0.0	1	23	948	971	948	971	0.97
18	62	0.08	5.2	7.9	0.5	1	23	975	998	975	998	0.98
19	62	0.5	33	5.4	1.1	1	14	1037	1050	1037	1052	0.93
20	62	1.1	69	4.4	0.2	1	23	1091	1114	1091	1114	0.95
21	62	1	68	4.4	0.1	2	23	1140	1162	1139	1162	0.95
22	62	0.027	1.7	9.4	0.7	2	23	1186	1207	1185	1207	0.94
23	62	0.00013	0.0086	16.7	0.0	1	23	1211	1234	1211	1234	0.97
24	62	0.03	2	9.3	0.8	1	23	1238	1261	1238	1261	0.98
25	62	0.53	34	5.4	4.0	1	23	1271	1294	1271	1294	0.92
26	62	0.014	0.88	10.4	0.4	1	23	1300	1323	1300	1323	0.97
27	62	0.52	34	5.4	0.3	1	23	1329	1351	1329	1351	0.97
28	62	1.1e-05	0.00074	20.0	0.8	1	23	1357	1379	1357	1379	0.99
29	62	0.0017	0.11	13.2	4.8	1	23	1385	1407	1385	1408	0.96
30	62	1.5	1e+02	3.9	1.2	1	23	1481	1504	1481	1504	0.93
31	62	0.51	33	5.4	6.7	1	23	1570	1592	1570	1592	0.95
32	62	0.00023	0.015	16.0	1.0	1	23	1596	1618	1596	1618	0.98
33	62	0.018	1.2	10.0	0.6	1	23	1623	1646	1623	1646	0.94
34	62	0.00034	0.022	15.4	2.8	1	23	1652	1675	1652	1675	0.98
35	62	0.1	6.7	7.6	1.3	1	23	1682	1705	1682	1705	0.95
36	62	0.0019	0.12	13.1	1.5	1	23	1711	1733	1711	1733	0.96
37	62	1.1	73	4.3	0.2	1	23	1787	1810	1787	1810	0.89
38	62	0.12	7.9	7.4	0.3	3	23	1840	1861	1839	1861	0.92
39	62	0.0028	0.19	12.5	1.1	1	23	1883	1905	1883	1905	0.98
40	62	0.015	0.95	10.3	0.1	1	23	1909	1931	1909	1931	0.95
41	62	0.051	3.3	8.6	0.7	1	23	1936	1959	1936	1959	0.90
42	62	0.9	59	4.6	3.7	1	23	1965	1988	1965	1988	0.96
43	62	0.001	0.068	13.9	0.1	1	23	1995	2018	1995	2018	0.98
44	62	7.3e-05	0.0047	17.5	0.9	1	23	2024	2046	2024	2046	0.96
45	62	2.2	1.4e+02	3.4	0.3	1	23	2143	2166	2143	2166	0.93
46	62	5.6	3.6e+02	2.1	1.3	2	23	2191	2213	2190	2213	0.93
47	62	0.081	5.3	7.9	0.1	1	23	2237	2259	2237	2259	0.96
48	62	0.0013	0.083	13.6	0.2	1	23	2263	2285	2263	2285	0.98
49	62	0.0048	0.31	11.8	0.4	1	21	2290	2310	2290	2311	0.93
50	62	0.00012	0.0082	16.8	4.8	2	23	2313	2334	2312	2334	0.96
51	62	0.006	0.39	11.5	1.5	1	23	2340	2362	2340	2362	0.98
52	62	0.039	2.5	8.9	0.2	1	23	2496	2519	2496	2519	0.96
53	62	0.14	9.5	7.1	1.1	1	23	2627	2649	2627	2649	0.97
54	62	0.015	0.97	10.2	0.2	2	23	2677	2699	2676	2699	0.95
55	62	3.5e-05	0.0023	18.5	3.8	2	23	2723	2744	2722	2744	0.97
56	62	0.14	9.2	7.2	0.3	2	23	2748	2769	2747	2769	0.96
57	62	3.2	2.1e+02	2.9	3.9	1	23	2774	2797	2774	2797	0.95
58	62	6.6	4.3e+02	1.9	3.6	2	23	2809	2831	2808	2831	0.91
59	62	0.014	0.91	10.3	0.6	1	23	2837	2860	2837	2860	0.95
60	62	1.4e-06	9.2e-05	22.9	1.8	2	23	2865	2886	2864	2886	0.97
61	62	0.00093	0.061	14.0	3.1	1	23	2892	2914	2892	2914	0.97
62	62	0.0029	0.19	12.5	2.6	1	23	2920	2943	2920	2943	0.96

Sequence Information

Coding Sequence: ATGTGCGTATTCTGCTGCGATGACTTCCAACAGGCAGCTCAATTTAGGCGGCACATGGAAGTCGAACATGAGAGTTTTAAAGTAGAAATCGCATTCGCCCATTGCCCCGATGGGTATGTTAAAGCGGACTGCACTGACCTCCGATGTAAACTTTGCACTGAGAAATTTCCAGAATTGCGCTCTATTGCCAAACACCTACTTGAAACGCATGGTGCTGCAATAACTATTGAGTCGGACTTTGGAATCCATCCATTTAAATTCACCGACGAGAAGCTTCTGTGCGGAGATTGTAATGTAAATTTCCCATCCCTGCGTCAACTGAACTTTCAGTTCACCGGAGGCGAGAAGGGAGCACGTAAACTCGACGCCAAAATGTTGGACGTATCAATGTCAGTTGTGCACGCAGCGGTTTATAACATGGAAATTACGAAGCATCATCTTGACCAGCACGTTATTACCCACACCGGCTTGAAACTGTATAAATGCGATGTTTGTTCAAAGTCTTTCCCCAGGAAGAAGAACTTGAATCAACACATGTGGATACATTCAGAGGTGAAAAGGTTCGAATGCGTTGGGTGTAATAAAAAATTTAATCAGAAAGTGAGTTATGCGACTCATATGAAGAATTATCATGGGGACGGTACCAATGAAAACAACGTAGAAAACAAAAACGCAGATAATAACACGAAATCCTCTATAGCAGATGACGATATCCTTAAACGATATAAAGTTGCACCAAAAACAGAATTGCTGAAGCATCGTAACAACATTAAAGAGATATTGTTATGTTCAAACGCGACGCCGATCAGACGCTACGGCGGTGTCGGGTACACGTGTTGCTATTGCGAGGAGCAATACCAGAAACCGCATCAGCTGAAAGCCCACACTCTGGATGTCCACAAGGATGTAACGCAAGCTAACTTCATGAAATATATGAACATGTCAGAGTATGTCGTCAAACTTGACATCACTTCCCTCAGCTGCAAACTCTGCAACGTCGGAATAGACAGCCTCGAACTACTGACGGATCACCTAATCAACAAGCACGAAAGGAAATTTTTTAATGACATAAATAATCATATATTCCCCTTCAAGTTTGACAGCGACATCCTCAAATGTCCTCATTGTAGTTTTACATTCGACAAATTCCGCGTAATGGCCAATCACATGCACATACACTACAGGAATTTCGTTTGTTCCATCTGCGATATAGGCTTCGTGAATCGTAACGCTCTGTCGCAGCACGCCGAGAAACATAGAACAGGCGAGTTCCCGTGTAAGTTTTGTGAGAAAGTATTCGAAACCTTGAACAGGAAGAAACTACACGAGAGAATGAGTCATACTCATACTGATATTGTAAACAAATGCGCATACTGTATCGAAACTTTCAAAGATTACAGGAAAAGAGAGATCCATCTATCAGAACATACGAAAGTGAAAGATTTTAAATGTGAGGTGTGCTCGAAGGCTTTTGCTAGGAAAAAAGCGTTGAGTTTCCATAAGCGAATACACGAAGCAGAGAAACGGCACAAATGCGAGCATTGCGAAACGGAACCGCATATAAAGGCGAAAAGGAATGCTGAAGTTGTATTGAAATTCTCGACCGCCTATCCGTTCAGAGTGCGCACGAAGACCTTGATATGTGTTTACTGCTGCGACGAGTTCGAAGACCCTCAAGATTTTAGACGGCACGTTGACGAGAATCATGAGACTTGTACGATATCAACGGCGTTCGCCCACGTTGGCAAAGGCAAAGAGTACTTGAAGGTCGATTGTACCAATCTGAGGTGTAGATTATGCTCCGAACCGGCTAAATCTATCGAAGATATGGCCAGGCATATCCATAATTCGCACAAATGCAAATTAACGGCACATCTGAACCTTGATTTCGATATTGGCATGCAACCGTATAAACTGGATAAGGACAAGTGGTACTGTTTCCTTTGTGACATGAAACTGCCCTCGCTAAATAAACTGTGTCGCCATACGACTAGCCATTACCTCGATTATACTTGCGATACGTGTGGTAGGCGATATTTAACCATCGAGGCTTTAAAATACCATATAAGATGCAGGCATACCGAAACAACGTATACTTGTCCCGAATGCGCTCAAGTGTTTCAGTCGCGAAAACTCTTCTACAACCACTATAAACTATCACATACGGATGACAACTTTATATGCAGTTGCTGCGGACTCAAGTTCGAGTCTAAGAAACGTATGGAAGATCATAGATTGGGTCATACGGGCGAGAAGCAATTCAAATGCCCGATATGCTCGAAAACATTTATGAGAAATAAAAGTTTGACTCAACACATGTGGATACACAGTGAATCGAAAAGATTTGTGTGTATGCTTTGCGATAAGCATGAGACTGAAACAAAAAAGAAAATAGTTCTTGTCTATCAGTCACCTCAGCGGCGTAATGCCGAACTTATATTAAAATTCTCGACGGCTTTCCCTTTTAAAACACGTTTTAGTCAAATTCTCTGTGCGTATTGTCACGGAGAATTTAATACTTTGGCTGATTTAAGGTATCACATGAAAGGTGAACATCTCAATTCGGATTTTGGGAACGTGTTCTATAGAATCAAGGATAATTTGATAAAAATTGATATAACTGATTTGCAATGTAAATTATGCTTCATGCCAGTAGAACAGTTCGATATTTTGACTTATCATTTGAAGAATGATCATCAACAGCCGATAAATTTAGACGCTCAAATAGGTGTATTACCGTTTAGGTTAAACGATGGTTCGGTTTGGAAATGTACGATCTGCCCAAATGAGTTCAAAGATTTCATGTCCCTAAAGAAGCACACATCGGAGCATTTTCAAAATTACGTCTGTGATACATGCGGAGAAGGATTTATAACTGAATCGTCTATGATAGCTCATACAAAAATACCTCATGAGAATAAGTATAGTTGCAGCCGTTGTGTGGCTACTTTCTCTTCGCTAGATGAACGGAATATACACGTAAAAACCCAACATACGTCGATGCCCTACATGTGTGTGTACTGTAAAGAGAAACCACGTTTCGCCAATTGGGAACTGCGGAAGAAGCATCTCATGGAAATACATAATTACAAGACTGGAACGGACAAATACGAGTGCACGGCATGTCAGAAATCATTTAAGACACGATCCGGGAAATGCTACAAGCTTACCTATAAACCGAGATTTGGTAAATCTTTAAAACATCGGAGCAACACGGAGATAATTCTTCAGTGTTCTACCGCATGCCCTTTCAGAACATGGGGTCAGAATTTCAATTGTGTACTTTGTAGGGTACAGTCTAACGATCCTAATGGCCTCAGAACGCATATGGCATCTCGTCACGCAAACTTCAACATCCAACACGTGTTCAGCAGAAAACTACGCAAAGAGTTCCTCAAAATTGACATCACAGATCTTCAGTGCAAGCTTTGCTTCATCGCTATCGATACACTTGACGACCTATTAGTTCATTTGAAGAACGATCATAAACAACCGATAAACGTCGACGTCCAACCTGGAGTACTTCCTTTTAAATTGAACGATGGAAGTTGTTGGAAATGTGCAATATGCAAGTTCCAATTCACAGATTTCATATCTTTAAAGAAACACACGGCTGAACACTATCAAAATTACGTCTGCGATACATGCGGCGAGGGTTTTATAACAGAGTCGGCTTTAATAGCTCACACGAAGGTTCCACACGACAACAAATACACGTGCAGCCGTTGTGTGGCCACGTTCACTACTTTGGAAGAGAGGAATCTTCATATAAAAACTCAGCATACGACACTGCCGTACATGTCAACTCGCTACAAATGCCCATTTTGTAGTGAAACTTTTAAAAGTTACCACCGCAGGGGGAAGCATTTGAAAGAGTTACACAACAAGAAAGTGGAATATCCTTGCACGATTTGTCCAGCTGTTTTTGCAATGTGCAACCAACGGACGAAACATATACGAGAAGTGCATATAAAGCAAAAGACGTTTTCGTGTTCGTACTGCGCTGATCAATTCGTGACAGCTGCTAGGTTGAGGAATCACTTGGTGAAGCACATCGGTGAGAGGAAGTATCAGTGTGACGTCTGTAAGAAGGCTTATGCTAGGACGAAAACGTTACGGGAACATATGAGAATCCATAATGACGACAAGAGATTCGTTTGTGAGTTTTGTAACAATGCCTACGTTCAAAAATGTAGCCTGCAGAGTCATATGCGAACGCATCATTCGAGTTCCGATCAGATGAAGAGGATAAAGTTGTCCAACGTTGAGAAAAATGAGAAAATACAGCCAAAGCGCGAAGTGGATTGTGTGACGGAGAATGTGACGGCTGTTGTCGCGACGACACGCGACGGTGACGACAGGAGGTCTATATTTAGGAATAACATTGCCATTATAATGCAATCGTCCTCCGCTTACCCTTTCAAGTATAGGAAAGGCACGTACCTGTGTTTCTTTTGTAAGAGCAGCTTCATGGAACCGGAAAAATTGCGCGAACACACACGCGACCAGCACTCCGATTTCAGACAGCTGAAGCCGCGGAAATACGAACCTTTGAAAATGGACTTCGCGACGATACACTGTAAACTCTGCGGGCTGGATATACCGAATTATCTGGCATTGAAATTCCATTTAACAGTCGAACACGGCAAGGTGATAGATTCATCGTACGGGGAAAGTGTCCTACCATATAAACTGTGCAAGAACGAGCACTGTTGCCAGATATGCGGGAAGCGTTACGAGATGTTCCTGAGCCTCCACAAGCATATGAACGACCATTACGAATACTATATATGCGAGACGTGCGGAAAACGGTTCGCGACGTCGCAAAGGATGGTAAATCACACCAGGACACACGAGAGAGGAGAGTTCCCTTGCAAGAAATGCACAGAAACGTTCACGTCCTATTCAGCGAGGTACGCTCATGTCGCTAAAGTGCACAAATCAAACAAACGCTATAAATGTCCGATATGTGATGAGAAATTCTCATCCTATAAACACAGGTTGAAGCATTTAAGTACGGTGCACGGGGAGAAGACGGCTGTTTTCCCGTGTCCGTCCTGCCCGAAAGTATTCGACTTGTGCAGTCGGAGGACCGCGCATATACGCTTCCAGCACTTACAGGAACGGAAGCACGTCTGCTCGGTGTGCGGCATGAAGTTCTTCACCAACTACGAACTCCAGGAGCATTCTATAAAGCACGGCGGTTCGTACGTATTACCTGATAAGGAAACGTTTACTGCTGAAAAACAAACGGCGAATCTAAAGAAGAGAAACGATGATATCAAAGCAAAACAACAGCGCGCTCTGATACTTCTAGAAAATTCTAGGATATGCCCCTTTAGGTGGATGAAGAATACGTATATTTGCATCTATTGTGAACGGTATTTCAACAATCCCATAGAAATGAGAAAACATAACGCGTCAGAACACGAGAGATTGACTCAAACTGACATTAAAATCGCAATATCGAAACTGAAAAAATACGAGCTGGTCAAAGTTGACGTCACAAATGTAGACTGTAGAATCTGTGATAAAAGTATTAAAATGTATAAAGAGCTTAAAACTCACCTCGCTGAAGAGCACGGAAAGAATATAGACCCGAACGCGACAGACGGTGTCTTGCCTTTCAAAGTGACGCCATCGCATTACAGTTGCGGCATCTGTAGTGAGAGTTACGAAGAATTCAAAAGCCTTAACCATCATATGAACGTGCATTTCCAGAACTTTATCTGCGATCAGTGTGGAGTAGGGTTCATTACGCCGGGAAGGTTGCGGACACACGCGTTCTCGCACGAGACTGGATCGCATCCCTGCGACAGTTGCGATAAAGTTTTCCGTTCCTCAAACGCAAAGAACGAACACAACGCGACTGTGCATTTAAAAGTCAAAAGGCATAGGTGTCCACATTGCGCTGATACCTTTAGGAACTATTTCCAAAGGAACAAACACATCGCATCGGTACACGGCTTGAAACTTAAGGAATTCAAATGTGCGATGTGCCCGAAAGTGTTTAATTTGAGCGGAAAATTGGGTGTGCATGTGCGTACGGTGCATTTGAAGATGAAGCGTCATGCTTGCGAGGTTTGCGAGTGGAAATTTTATTCCAAGTCGGAGTTAAAGGACCATATGATCCGACACGGCGGCGAGAGGAAGTTCCAATGTAACGTATGCAAGAAAGCACCGTTGGGAACCGTTTTGGACTTTCGTAAATTAAGAACAAAGTCTTCGATAACTTCAAGGATCTCGTCTCCGAGTCGGTCTCCTTCCCCCATACTACTGAGTAGAGCACATACTCCTATCATCGACAATCCACCTGTTAAAATCTTCAAGCCTAAACCAACGGCAAAGATTCCAGACGTGAGGCAGAACGCGCTCCTCATCTTTGAGTTTTCCACAGCCTACCCATTTGTATACGGGAATAATAAGTTTAAATGCTTCATATGCTCCCAACCATATCTCGAGCTACAACTCCTCAAGCAGCATATGTCCGAAGCCCATACATTTGCCCCATTAAAGAGGCTAGTCAACAATAGAAGAGAAAACATACTGAAAGTCGATGTCAATGGTATGTCTTGTAAATTGTGTTCTATGAAACCAACTGATTTGGTTGACCTCAAACATCACCTAAAGAATGACCACGATAAACCTATAGACCTCGATTTGCACGACAATTTGATACCGTTTAAACTGGACGCCGTTAATGGTTCGTACAAATGCGTGATTTGCAACGAGAGTTTCATTAAAGTGAGGATTTTGGTCATCCATATGAGCGTACACTTTAACAATTATAGCTGTGAAATCTGCGGATCAGGTTTCATGACGCTGAGACTTTTGAAGAAGCATTTGGAAGTCCACGAAAGCGGCAACTACCCGTGCGATCGTTGCGATAAAGTTTTCTCCACGCCTTACAAAAGAACGTTACACGAGAGGAACCAGCAATGCGACATTTGCCATCAGAGATTCTGTAACAAGGAGTCATTGAAGAGGCATATGGTGATACATACCGGAGAGAAGAATCATAAATGCGATGCCTGCGGGATGGCCTTCCTCCGTCGGAAGAACTTGAAGGACCATTTGAGATTGCATGAGATTGGAAACATCCAGAATACGAATTCAACAATAACGATAAAAGATGATGATGGTAGTGATATAACATTGACAGTACTAAAAAATCCTATAGATCTCGACAAATTACGTTATGAATACCATGAAACAAAGATGAAGTGTAAGAAAAAGAATCAGAAAATTCAGAAAACCAAAGACGTAACGAGCTTAACGCTGCTTGATGAACCTTTAGCGCTTGATAAATTCAACTGGAAAGATCCAATCCCATCGTCAATCACATGGAATGTTAAAACTTCTAAAAAATCATATGTGAACGAAAACAAACGGAGAAGAGACACTGCTGAGGAAACATGGAAGGAAAACGCTATAATCGTCTTTGAAAATTCATTCGTTTACCCTTTCGTCCACACTGGTAATAAATATAAATGTTTTGTATGCTCCGAACCATATATCAATCCATTAGAACTGAAAGAACATACTGCAAAACAACATACTGTAAATAATGTTAAAGAAGAGTTAAATAATAAAGTACGGGATAAGAATATCAAAGTAGATGTTGCTTGTACGCAATGCAAAATATGCTTGGACACTCCGCAAAACTTATACGCATTGATGAGACATTTAAAAGATCACGGGAAGAACATTGACTTAAATGCTCAAGGCAATCTGATTCCATTTAAACTTGGAGGAATATCAAGACAGCGGCCTGGTCCCAGGACCAGTGTATGGCAAATGACCGTATCCGAGAGACAAAATGCCGCAACGTTCCTCGAGAACACGACAGCTAAGCCATTCTTTTACCAGCAAGCGAATTTTAAATGCTTCTATTGCAGCGAAGTATTTCCAGAGGTGCATTCGGTGCTGAATCATACAAATATCCACGTAACTCCTGATCAAACTAGCTTACTTAAACAGCATCTGAGGAAAGGCAAACGGGTGATCAAAGTCGACATATCAACGTTAAAATGTAAATTATGCGACCAAAGATATTCAGAATTAGACGAAGTGCGGAAACATCTTATTGTGGCCCATAAAATAGAGTTTAATCCAGCTGGCAACGGTCTAATGGCGTACGATTTGAGTTCAAACAATGGTCTCCTATCTTGTCATAAATGCGGAAAGAGATTTAACTCCTTCTTCCTTCTAAATCGACATATGAACGTGCATTTCAACGTGGTATGCGAAACATGCGGATTAGGGTTCATGTCGCACCAACGTCTGATCAACCATAGGATAGTTCACCAGAACGGTGTTCATAAATGCGAGAGATGTCAGGACGTGTTCCCGACGAAACTGAAGCTCCGTTACCATCTGTATAAGAAGCACGAGGTGAATAATGCGAAGAAAACCAAACCGTTGAAGTGTCCACACTGTTTGGAACGGTTCTCGGAACATTACCGGAAGATGACGCACTTGAAGGAGATCCACGGTATAGCGTTTACGTTCGATTGCCAAACGTGTAAAGCGGTATTTCCAACAAGACGTGCATTAACCGAGCACACGACGAAACTGCACACGCAGAGGATACAGTGCAAGGTCTGTGGGAAATGTTTCGGGACACAGTCACTGTTGAAGATGCACATGCGGGGACATACGGGCGAGAGGAATTTCTTCTGCACCGTATGCCAGAAAGCGTATATGCACGAGAGGACGTTGAGGCAGCACATGAGAGTCCACGGGCCGGTATGGAGGTTCTCGTGTTCGGAATGCGGCAGCGGGTTCCACAATCGAAACGAGTTCAACAAGCATATGAAACAGTGGCATCCTCAGTGGCAGTTTAAGACTATAGTTAAAAATTTTGGAAACGACATTCTAAACTAA
Protein Sequence: MCVFCCDDFQQAAQFRRHMEVEHESFKVEIAFAHCPDGYVKADCTDLRCKLCTEKFPELRSIAKHLLETHGAAITIESDFGIHPFKFTDEKLLCGDCNVNFPSLRQLNFQFTGGEKGARKLDAKMLDVSMSVVHAAVYNMEITKHHLDQHVITHTGLKLYKCDVCSKSFPRKKNLNQHMWIHSEVKRFECVGCNKKFNQKVSYATHMKNYHGDGTNENNVENKNADNNTKSSIADDDILKRYKVAPKTELLKHRNNIKEILLCSNATPIRRYGGVGYTCCYCEEQYQKPHQLKAHTLDVHKDVTQANFMKYMNMSEYVVKLDITSLSCKLCNVGIDSLELLTDHLINKHERKFFNDINNHIFPFKFDSDILKCPHCSFTFDKFRVMANHMHIHYRNFVCSICDIGFVNRNALSQHAEKHRTGEFPCKFCEKVFETLNRKKLHERMSHTHTDIVNKCAYCIETFKDYRKREIHLSEHTKVKDFKCEVCSKAFARKKALSFHKRIHEAEKRHKCEHCETEPHIKAKRNAEVVLKFSTAYPFRVRTKTLICVYCCDEFEDPQDFRRHVDENHETCTISTAFAHVGKGKEYLKVDCTNLRCRLCSEPAKSIEDMARHIHNSHKCKLTAHLNLDFDIGMQPYKLDKDKWYCFLCDMKLPSLNKLCRHTTSHYLDYTCDTCGRRYLTIEALKYHIRCRHTETTYTCPECAQVFQSRKLFYNHYKLSHTDDNFICSCCGLKFESKKRMEDHRLGHTGEKQFKCPICSKTFMRNKSLTQHMWIHSESKRFVCMLCDKHETETKKKIVLVYQSPQRRNAELILKFSTAFPFKTRFSQILCAYCHGEFNTLADLRYHMKGEHLNSDFGNVFYRIKDNLIKIDITDLQCKLCFMPVEQFDILTYHLKNDHQQPINLDAQIGVLPFRLNDGSVWKCTICPNEFKDFMSLKKHTSEHFQNYVCDTCGEGFITESSMIAHTKIPHENKYSCSRCVATFSSLDERNIHVKTQHTSMPYMCVYCKEKPRFANWELRKKHLMEIHNYKTGTDKYECTACQKSFKTRSGKCYKLTYKPRFGKSLKHRSNTEIILQCSTACPFRTWGQNFNCVLCRVQSNDPNGLRTHMASRHANFNIQHVFSRKLRKEFLKIDITDLQCKLCFIAIDTLDDLLVHLKNDHKQPINVDVQPGVLPFKLNDGSCWKCAICKFQFTDFISLKKHTAEHYQNYVCDTCGEGFITESALIAHTKVPHDNKYTCSRCVATFTTLEERNLHIKTQHTTLPYMSTRYKCPFCSETFKSYHRRGKHLKELHNKKVEYPCTICPAVFAMCNQRTKHIREVHIKQKTFSCSYCADQFVTAARLRNHLVKHIGERKYQCDVCKKAYARTKTLREHMRIHNDDKRFVCEFCNNAYVQKCSLQSHMRTHHSSSDQMKRIKLSNVEKNEKIQPKREVDCVTENVTAVVATTRDGDDRRSIFRNNIAIIMQSSSAYPFKYRKGTYLCFFCKSSFMEPEKLREHTRDQHSDFRQLKPRKYEPLKMDFATIHCKLCGLDIPNYLALKFHLTVEHGKVIDSSYGESVLPYKLCKNEHCCQICGKRYEMFLSLHKHMNDHYEYYICETCGKRFATSQRMVNHTRTHERGEFPCKKCTETFTSYSARYAHVAKVHKSNKRYKCPICDEKFSSYKHRLKHLSTVHGEKTAVFPCPSCPKVFDLCSRRTAHIRFQHLQERKHVCSVCGMKFFTNYELQEHSIKHGGSYVLPDKETFTAEKQTANLKKRNDDIKAKQQRALILLENSRICPFRWMKNTYICIYCERYFNNPIEMRKHNASEHERLTQTDIKIAISKLKKYELVKVDVTNVDCRICDKSIKMYKELKTHLAEEHGKNIDPNATDGVLPFKVTPSHYSCGICSESYEEFKSLNHHMNVHFQNFICDQCGVGFITPGRLRTHAFSHETGSHPCDSCDKVFRSSNAKNEHNATVHLKVKRHRCPHCADTFRNYFQRNKHIASVHGLKLKEFKCAMCPKVFNLSGKLGVHVRTVHLKMKRHACEVCEWKFYSKSELKDHMIRHGGERKFQCNVCKKAPLGTVLDFRKLRTKSSITSRISSPSRSPSPILLSRAHTPIIDNPPVKIFKPKPTAKIPDVRQNALLIFEFSTAYPFVYGNNKFKCFICSQPYLELQLLKQHMSEAHTFAPLKRLVNNRRENILKVDVNGMSCKLCSMKPTDLVDLKHHLKNDHDKPIDLDLHDNLIPFKLDAVNGSYKCVICNESFIKVRILVIHMSVHFNNYSCEICGSGFMTLRLLKKHLEVHESGNYPCDRCDKVFSTPYKRTLHERNQQCDICHQRFCNKESLKRHMVIHTGEKNHKCDACGMAFLRRKNLKDHLRLHEIGNIQNTNSTITIKDDDGSDITLTVLKNPIDLDKLRYEYHETKMKCKKKNQKIQKTKDVTSLTLLDEPLALDKFNWKDPIPSSITWNVKTSKKSYVNENKRRRDTAEETWKENAIIVFENSFVYPFVHTGNKYKCFVCSEPYINPLELKEHTAKQHTVNNVKEELNNKVRDKNIKVDVACTQCKICLDTPQNLYALMRHLKDHGKNIDLNAQGNLIPFKLGGISRQRPGPRTSVWQMTVSERQNAATFLENTTAKPFFYQQANFKCFYCSEVFPEVHSVLNHTNIHVTPDQTSLLKQHLRKGKRVIKVDISTLKCKLCDQRYSELDEVRKHLIVAHKIEFNPAGNGLMAYDLSSNNGLLSCHKCGKRFNSFFLLNRHMNVHFNVVCETCGLGFMSHQRLINHRIVHQNGVHKCERCQDVFPTKLKLRYHLYKKHEVNNAKKTKPLKCPHCLERFSEHYRKMTHLKEIHGIAFTFDCQTCKAVFPTRRALTEHTTKLHTQRIQCKVCGKCFGTQSLLKMHMRGHTGERNFFCTVCQKAYMHERTLRQHMRVHGPVWRFSCSECGSGFHNRNEFNKHMKQWHPQWQFKTIVKNFGNDILN

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: -
90% Identity: -
80% Identity: -